Sigdel Shalik Ram, Zheng Xiangyu, Babst Flurin, Camarero J Julio, Gao Shan, Li Xiaoxia, Lu Xiaoming, Pandey Jayram, Dawadi Binod, Sun Jian, Zhu Haifeng, Wang Tao, Liang Eryuan, Peñuelas Josep
State Key Laboratory of Tibetan Plateau Earth System, Environment and Resources, Institute of Tibetan Plateau Research, Chinese Academy of Sciences, Beijing, China.
University of Chinese Academy of Sciences, Beijing, China.
Nat Plants. 2024 Dec;10(12):1909-1918. doi: 10.1038/s41477-024-01855-0. Epub 2024 Nov 18.
Understanding how climate change influences succession is fundamental for predicting future forest composition. Warming is expected to accelerate species succession at their cold thermal ranges, such as alpine treelines. Here we examined how interactions and successional strategies of the early-successional birch (Betula utilis) and the late-successional fir (Abies spectabilis) affected treeline dynamics by combining plot data with an individual-based treeline model at treelines in the central Himalayas. Fir showed increasing recruitment and a higher upslope shift rate (0.11 ± 0.02 m yr) compared with birch (0.06 ± 0.03 m yr) over the past 200 years. Spatial analyses indicate strong interspecies competition when trees were young. Model outputs from various climatic scenarios indicate that fir will probably accelerate its upslope movement with warming, while birch recruitment will decline drastically, forming stable or even retreating treelines. Our findings point to accelerating successional dynamics with late-successional species rapidly outcompeting pioneer species, offering insight into future forest succession and its influences on ecosystem services.
了解气候变化如何影响演替是预测未来森林组成的基础。预计变暖将加速物种在其寒冷温度范围(如高山林线)的演替。在这里,我们通过将样地数据与基于个体的喜马拉雅中部林线模型相结合,研究了早期演替的桦树(西藏桦)和晚期演替的冷杉(长叶冷杉)之间的相互作用和演替策略如何影响林线动态。在过去200年里,与桦树(0.06±0.03米/年)相比,冷杉的更新增加,上移速率更高(0.11±0.02米/年)。空间分析表明,树木幼小时种间竞争强烈。各种气候情景下的模型输出表明,随着气候变暖,冷杉可能会加速其向上坡移动,而桦树的更新将大幅下降,形成稳定甚至后退的林线。我们的研究结果表明演替动态加速,晚期演替物种迅速胜过先锋物种,这为未来森林演替及其对生态系统服务的影响提供了见解。
